论文标题
部分可观测时空混沌系统的无模型预测
Pre-Born-Oppenheimer energies, leading-order relativistic and QED corrections for electronically excited states of molecular hydrogen
论文作者
论文摘要
对于对应于$ b $和$ b'\ ^1σ_\ text {u} ^+$的氢分子电子状态的rovibronic状态,预先出生的 - oppenheimer(四方粒子)非占主导地位的能量被融入1-3个零件的相对精确度。四粒子的非相对论能量附加了领先的相对论,领先和估计的高阶量子 - 电子动力学校正。与实验结果达成了极好的一致性,获得了rovibronic基态的所得项值。报告并讨论了可分配给$ c \ ^1π_\ text {u} $的其他Rovibronic状态以及$ ef,gk,$和$ hh \ ^1σ_\ text {g} ^+$ electronic state。
For rovibronic states corresponding to the $B$ and $B'\ ^1Σ_\text{u}^+$ electronic states of the hydrogen molecule, the pre-Born--Oppenheimer (four-particle) non-relativistic energy is converged to a 1-3 parts-per-billion relative precision. The four-particle non-relativistic energy is appended with leading-order relativistic, leading- and estimated higher-order quantum-electrodynamics corrections. The resulting term values referenced to the rovibronic ground state are obtained in an excellent agreement with the experimental results. Further results are reported and discussed for other rovibronic states assignable to the $C\ ^1Π_\text{u}$ and the $EF,GK,$ and $HH\ ^1Σ_\text{g}^+$ electronic states.
